Inhibitor effects on the accumulation and efflux of nickel ions in plasmid pMOL28-harboring strains of Alcaligenes eutrophus

The accumulation and efflux of ⁶³Ni²⁺ ions were studied using two strains of the strictly respiratory bacterium Alcaligenes eutrophus, the wild type strain N9A and its transconjugant N9A-M243 which harbors plasmid pMOL28.1 encoding constitutive resistance to nickel. When 1 M ⁶³Ni²⁺ is added to respiring cells, strain N9A accumulates high, but M243 only negligibly small amounts of nickel. When the cells were preincubated for about 20 h under anoxic conditions and were then exposed to 1 M ⁶³Ni²⁺ anaerobically, both strains accumulated approximately the same amounts of nickel. Aeration of these preloaded cells resulted in rapid efflux by strain M243 but renewed uptake of nickel by N9A. ⁶³Ni²⁺ uptake and efflux are highly sensitive to protonophores such as CCCP, FCCP and TCS but insensitive to DCCD (each at 20 M concentrations). Measurements on the effects of the inhibitors on biosynthetic processes requiring ATP either from substrate phosphorylation or from electron transport phosphorylation made sure that at the concentrations used the inhibitor effects were specific. Thus the results suggest that in the nickelresistant strain M243 under normal aerobic conditions two constitutive energy-dependent nickel transport systems can function concomitantly, a chromosomally-determined specific uptake system and a plasmid-mediated specific nickel efflux system.     

Uptake and release of63Ni2+ byXenopus embryos during early cleavage stages

Summary Uptake and release of⁶³Ni was studied in dejelliedXenopus laevis embryos exposed to⁶³Ni²⁺ (0.3–30 mol/1) for 0.5-h intervals during the period 1–4.5 h post-fertilization (i.e. from first cleavage to early blastula stage). At first cleavage, the mean uptake of⁶³Ni by embryos was 12-17 times that by non-fertilized eggs, suggesting that conversion of the vitelline envelope to the fertilization envelope enhanced integumental permeability to⁶³Ni²⁺. 63 Ni uptake by embryos at the 1-2-cell stage averaged 1.8–2.5 times that at the early blastula stage. An average of 5% of total⁶³Ni in washed embryos was recovered in isolated fertilization envelopes, indicating that⁶³Ni²⁺ passed through the envelope into internal compartments. Progressive increases of⁶³Ni uptake were seen with increasing exposure levels; after exposure during 1–1.5 h post-fertilization to the highest concentration of⁶³Ni²⁺ (30 mol/1),⁶³Ni uptake averaged 11.4 (SD±5.1) pmol/embryo. Rapid efflux of⁶³Ni was noted after⁶³Ni²⁺-exposed embryos were transferred to nickel-free medium; mean⁶³Ni contents at 0.25 h and 2 h post-exposure diminished to 50% and 15% of the initial values, regardless of the exposure level. The finding thatXenopus embryos are permeable to⁶³Ni²⁺ during early cleavage stages provides a convenient experimental system to investigate the embryotoxicity and teratogenicity of nickel.     

Nickel hyperaccumulation in shoot cultures of Alyssum markgrafii

Shoot cultures of Alyssum markgrafii O.E. Shulz, endemic nickel hyperaccumulating species of central Balkan, were established and maintained on Murashige and Skoog medium supplemented with 0.2 mg dm^–3 benzyladenine (BA). Nickel in form of NiCl₂ . 6 H₂O was supplemented at 22 different concentrations ranging from 0.0001 to 15 mM but none of them was lethal to cultures. High Ni²⁺ concentrations (10 mM or more) arrested shoot growth which, upon transfer to Ni-free medium, commenced via axillary bud proliferation. Shoots that developed from axillary buds through the subculture manifested increased tolerance to Ni²⁺ expressed as shoot elongation. Shoot multiplication and dry biomass production decreased with increase of Ni²⁺ in medium. Only the accumulation of Ni²⁺ in tissues increased with Ni²⁺ content of the medium. Apart from shoot cultures, high Ni²⁺ accumulation was registered in undifferentiated callus cultured on medium with 0.5 mg dm^–3 BA and 0.5 mg dm^–3 naphthylacetic acid. Highest content of accumulated Ni was 2.37 g g^–1 (d.m.) in shoots and 2.65 g g^–1 (d.m.) in callus, both measured on medium with 15 mM Ni²⁺.     

Response of Rhizobium leguminosarum to nickel stress

Rhizobium leguminosarum strain P-5 biovar viciae was sensitive to Ni²⁺ (MIC, 75 M) and showed concentration-dependent Ni²⁺ uptake in a wide concentration range (50–500 M). Ni²⁺ uptake up to a certain threshold limit also increased thiol content (66 nmol mg^–1 protein), proline content (10.85 nmol mg^–1 protein) and urease specific activity (500 nmol min^–1 mg^–1 protein) maximum corresponding to 100 M Ni²⁺ as the external concentration or 151 nmol Ni²⁺ mg^–1 protein as the intracellular buildup. Proline synthesis was stimulated most even at much lower Ni²⁺ concentration (25 M). Higher intracellular Ni²⁺ load neither favoured thiol nor proline biosynthesis nor urease activity. Ni²⁺ requirement of urease was ascertained by using EDTA-grown cells and the addition of bicarbonate (NaHCO₃, 100 mM) to the crude extract. The induction of thiol or proline by Ni²⁺, therefore, reflects the possible strategies adopted by bacterial cells to overcome the environmental stress.     

Effects of Pb2+, Ni2+, Hg2+ and Se4+ on cultured cells. Analysis of uptake, toxicity and influence on radiosensitivity

Effects of Pb²⁺, Ni²⁺, Hg²⁺ and Se⁴⁺ on cultured human glioma U-343MG cells were investigated considering uptake, toxicity and, in combination with radiation, clonogenic cell survival. The cells were exposed to 0-100 m of the metals for a week before the evaluation. The tests showed a tendency to toxicity with 10 m nickel although not significant (P > 0.05). Selenium, lead and mercury exerted a significant toxicity (P < 0.05) at 2.5 m, 10 m and 1 m, respectively. To challenge the clonogenic cell survival capacity, the cells were irradiated with⁶⁰Co photons after being exposed to the highest nontoxic concentration of the different metals. The clonogenic cell survival tests, after irradiation, showed no significant change if the cells were exposed to 5 m nickel, 0.5 m selenium or 5 m lead compared with those not exposed. Mercury, 0.1 m, gave a relative reduction in survival compared with only irradiated cells of 58 ± 17%. Thus, only mercury affected the radiation-induced damage and/or repair. When exposed to the highest nontoxic concentrations of the different metals, the cultures did not display a significant uptake ratio (metal concentration ratio of exposed cells to control cells) of nickel (3.1 ± 3.3), only a small uptake ratio of selenium (4.0 ± 0.4), while there was a large uptake ratio of both lead (2.6 ± 1.7) x 10² and mercury (1.5 ± 0.2) x 10¹. The results indicated that nickel was neither especially toxic nor influenced the clonogenic cell survival after irradiation. Mercury was more toxic and also influenced the radiation sensitivity. Lead was taken up strongly but did not influence the radiation sensitivity. Selenium accumulated but gave no detectable effect on the radiation sensitivity.     

Nucleolytic activities and appearance of a new DNase in relation to nickel and manganese accumulation inAlyssum murale

Serpentine and non-serpentine plants of Alyssum murale, a nickel (Ni) accumulator plant, from North Greece, were studied in order to examine: (1) The ability of natural plants to accumulate metals; (2) the ability of their seedlings to tolerate increasing concentrations of Ni²⁺ or Mn²⁺ (0, 0.16, 0.32, 0.5 and 1 mmol/L), when grown in nutrient solution; (3) the activities and electrophoretic patterns of root and shoot DNases and RNases under the above conditions. Measurements of metal concentrations in serpentine and non-serpentine natural plants and the respective soils revealed: (1) Very low calcium (Ca)/magnesium (Mg) (0.16) ratio and high concentration of Ni in serpentine soil; (2) very high Ca/Mg (17) ratio and high concentration of manganese (Mn) in non-serpentine soil; (3) the ability of serpentine natural plants to accumulate Ni and the inability of plants of both serpentine and non-serpentine populations to accumulate Mn. A. murale plants grown in nutrient solution with increasing Ni²⁺ or Mn²⁺ concentrations showed a negative correlation between the Ni²⁺ or Mn²⁺ concentrations in the nutrient solution, and the chlorophyll concentration, shoot and especially root length. The accumulation of Ni²⁺ or Mn²⁺ in the plant showed a positive correlation with increasing Ni²⁺ or Mn²⁺ concentrations in the nutrient solution. Application of 0.5 mmol/L Ni²⁺ or Mn²⁺ resulted in the inhibition of DNase activities and the appearance of a new DNase form, in both root and shoot detected by electrophoresis in active ssDNA polyacrylamide gel. The new gel-extracted DNase showed nicking action against plasmid DNA and has been characterised as an endo-DNase. In contrast, electrophoretic patterns and RNase activities were unaffected. According to our studies on growth, both serpentine and non-serpentine plants of A. murale have a constitutive ability to tolerate and accumulate Ni²⁺ or Mn²⁺; they have similar DNase and RNase electrophoretic patterns and show a new DNase form under Ni²⁺ or Mn²⁺ stress. This is the first report on the response of nucleolytic enzymes under metallic elements hyperaccumulation.     

Engineering the Escherichia coli outer membrane protein OmpC for metal bioadsorption

The outer membrane protein, OmpC, from Escherichia coli was used to display metal-binding poly-histidine peptides on the surface of this bacterium. SDS-PAGE analysis of outer membrane protein preparations confirmed the expression of the metal-binding epitopes inserted in position 162 of the mature OmpC protein. Display of these epitopes was confirmed by epifluorescence microscopy of cells bound to Ni²⁺-NTA-agarose beads and metal adsorption experiments. The cells harboring one or two copies of the metal binding epitope were able to adsorb 3 to 6 times more Zn²⁺ (13.8 mol g^–1 cell), Fe³⁺ (35.3 mol g^–1 cell), and Ni²⁺ (9.9 mol g^–1 cell) metallic ions than control cells expressing the wild-type OmpC.     

Regulation of aplanospore germination in Vaucheria

Germination of aplanospores in Vaucheria longicaulis Hoppaugh var. macounii Blum proceeds through three stages of development. Stage I begins with the initiation of germination and lasts approx. 2 h. During this stage germinating filaments grow at an accelerated rate (266 ± 12 m · h^–1). Stage II is characterized by a sharp decline in the growth rate of germinating filaments (96 ± 4 m · h^–1) and lasts 4 h. This is followed, during the next 4 h, by a recovery in the growth rate (168 ± 8 m · h^–1) of germinating filaments, stage III. Growth rates stabilize and remain unchanged during subsequent development (Oliveira and Fitch, 1988, J. Submicrosc. Cytol. Pathol. 20, 397–406). The Ca²⁺-influx modulators LaCl₃, nifedipine and methyl 1,4-dihydro-2,6-dimethyl-3-nitro-4 (2-trifluoromethylphenyl)-pyridine-5-carboxylate (Bay K-8644), the ionophore calcimycin (A23187), the intracellular Ca²⁺-release antagonist 8-N-N'-(diethylamino)-octyl-3,4, 5-trimethoxybenzoate (TMB-8), the Ca²⁺-uptake inhibitor ruthenium red and the phosphoinositide-cycle modulators LiCl and myo-inositol show that the events required for the initiation are distinct from those required for the completion of each stage of germination. These studies in conjunction with microinjection of germinating filaments with inositol 1,4,5-trisphosphate, the natural ligand for Ca²⁺ release from Ca-storing organelles (endoplasmic reticulum, vacuole), and treatment with chlorotetracycline (CTC), to visualize the distribution of membrane-bound Ca²⁺ reveal that both the initiation and completion of each stage of germination are controlled by Ca²⁺ signals which are restricted to well-defined time intervals and are modulated by the origin (source) of Ca²⁺.Abbreviations BAPTA 1,2-bis(2-aminophenoxy)ethane-N,N,N,N-tetraacetic acid - Bay K-8644 methyl 1,4-dihydro-2,6-dimethyl-3-nitro-4(2-trifluoromethylphenyl)-pyridine-5-carboxylate - CTC chlorotetracycline - InsP₃ inositol 1,4,5-trisphosphate - RR ruthenium red - TMB-8 8-N-N-(diethylamino)-octyl-3,4,5-trimethoxybenzoate The author wishes to express his gratitude to the technical group of the Immunocytochemistry Unit for their help with the microinjection studies. This work was supported by a grant from the Natural Sciences and Engineering Research Council of Canada (grant A-7844).     

Isolation and characterization of nickel-resistant microflora from serpentine soils of Andaman

Serpentine soils of Andaman Islands, India characteristically contain high levels of nickel, cobalt and chromium and are colonized by indigenous nickel-hyperaccumulating plants. Attempts have been made to isolate and characterize nickel-resistant microorganisms from these hitherto unexplored naturally nickel-percolated soils. The majority of the nickel-resistant organisms showed a minimum inhibitory concentration (MIC) of Ni²⁺ ranging from 300 to 400 mg/l and about 3.4% of the total 89 isolates representing bacterial strains were able to grow at 400 mg/l Ni²⁺. The potent Ni²⁺-resistant strains AND305 and AND603 were tentatively identified as Pseudomonas spp. and strain AND408 as Bacillus sp. following detailed analysis of morphological and physio-biochemical characteristics. Growth kinetics of these Ni²⁺-resistant bacteria showed a prolonged lag phase in Ni²⁺-containing media, which extended with increasing nickel concentration. In addition to Ni²⁺, these isolates were also resistant to Co²⁺, Cd²⁺, Cr⁶⁺, Fe³⁺, Cu²⁺, Mg²⁺, Mn²⁺(50–200 mg/l) and Hg²⁺ (0.5–2.0 mg/l) and the multiple metal-resistance of the isolates were also associated with the resistance to antibiotics ampicillin, cycloserine and penicillin G.     

Nickel transport in Alcaligenes eutrophus

Transport of nickel ions was studied in Alcaligenes eutrophus. Two transport systems for nickel ions exist to satisfy the nickel demand for the lithotrophic hydrogen metabolism. A major nickel transport activity exhibited an apparent affinity constant (K _m) of 17 M nickel chloride. This activity was competitively inhibited by Mg²⁺, Mn²⁺, Zn²⁺, and Co²⁺. A minor nickel transport activity was determined in the presence of high (0.8 mM) magnesium. This activity was not inhibited by Zn²⁺ or Mn²⁺; its K _m was determined to be 0.34 M nickel chloride. These kinetics suggested a second transport system in A. eutrophus. The membrane potential of A. eutrophus was decreased upon the addition of ammonium ions leading to a decreased nickel transport. This inhibition could be reversed by fructose or by hydrogen indicating an energy dependent nickel transport. Protonophores inhibited the nickel transport. However, inhibitors of ATP synthase like dicyclohexylcabodimide or venturicidin had little or no effect on nickel transport. These data indicated that the transport was coupled to the proton motive force.     

Mercuric(II) chloride modulates single-channel properties of carbachol-activated Cl− channels in cultured neurons ofAplysia californica

Summary 1. The effect of mercuric(II) chloride on kinetic parameters of carbacholactivated single chloride channels were studied in cultured neurons of the marinemollusk, Aplysia californica.2. Single neurons ofAplysia were cultured in L-15 medium containing 1 mM -d-xyloside, which improved the success rate for gigaseal formation by 46%. Carbachol-activated single chloride channels were recorded in the cell-attached patch clamp configuration. Recordings with control solution (1 µM carbachol) and with test solution (1 µM carbachol +1 µM HgCl₂) were performed successively on the same neuron.3. In both the control and the test solution the open and closed time distributions were fitted with a double-exponential function. However, kinetic analysis revealed that Hg²⁺ caused a significant reduction of the mean closed time (10.37±1.08 vs. 3.32±0.02 msec) and of the second time constant ₂ of the closed time distribution (2.09±0.05 vs. 0.66±0.5 msec). The reduction of ₂, i.e., fewer events in the longer closed state under the action of Hg²⁺, may be the physical cause for the reduction of the mean closed time and thus underlies the increased open probabilityp ₀ (0.13±0.01 vs. 0.29±0.01 msec) of carbachol-activated chloride channels.4. Inorganic Hg²⁺ affects the acetylcholine receptor at lower concentrations than previously reported.     

Production of tagatose by a recombinant thermostable L-arabinose isomerase from Thermus sp. IM6501

A gene (thaI) corresponding to l-arabinose isomerase from Thermus strain IM6501 was cloned by PCR. It comprised 1488 nucleotides and encoded a polypeptide of 496 residues with a predicted molecular weight of 56019 Da. The deduced amino acid sequence had 96.8% identity with the l-arabinose isomerase of Geobacillus stearothermophilus. Recombinant ThaI with N-terminal hexa-tistidine tags was over-expressed in Escherichia coli and purified by affinity chromatography using Ni-NTA resin. The purified ThaI was thermostable with maximal activity at 60°C at pH 8 for 30 min of reaction. Zn²⁺ and Ni²⁺ inactivated the catalytic activity of ThaI, 5 mM Mn²⁺ enhanced the bioconversion yield by 90%. The bioconversion yield of 54% from d-galactose to d-tagatose was obtained by recombinant ThaI at 60°C over 3 d.     

Purification and properties of oxaloacetate decarboxylase fromCorynebacterium glutamicum

Oxaloacetate (OAA) decarboxylase (E.C. 4.1.1.3) was isolated fromCorynebacterium glutamicum. In five steps the enzyme was purified 300-fold to apparent homogeneity. The molecular mass estimated by gel filtration was 118 ± 6 kDa. SDS-PAGE showed a single subunit of 31.7 KDa, indicating an ₄ subunit structure for the native enzyme. The enzyme catalyzed the decarboxylation of OAA to pyruvate and CO₂, but no other -ketoacids were used as substrate. The cation Mn²⁺ was required for full activity, but could be substituted by Mg²⁺, Co²⁺, Ni²⁺ and Ca²⁺. Monovalent ions like Na⁺, K⁺ or NH ₄ ⁺ were not required for activity. The enzyme was inhibited by Cu²⁺, Zn²⁺, ADP, coenzyme A and succinate. Avidin did not inhibit the enzyme activity, indicating that biotin is not involved in decarboxylation of OAA. Analysis of the kinetic properties revealed a K _m for OAA of 2.1 mM and a K _m of 1.2 mM for Mn²⁺. The V _max was 158 µmol of OAA converted per min per mg of protein, which corresponds to an apparent k _cat of 311 s^–1.Abbreviations OAA oxaloacetate - LDH lactate dehydrogenase     

Microbially-enhanced chemisorption of Ni2+ ions into biologically-synthesised hydrogen uranyl phosphate (HUP) and selective recovery of concentrated Ni2+ using citrate or chloride ion

Hydrogen uranyl phosphate (HUP) deposited enzymatically on Citrobacter N14 immobilized in polyacrylamide gel removed nickel ions from solution via intercalative ion-exchange into the HUP lattice. Using flow-through columns containing 100 mg dry weight of biomass and 200–250 mg loaded uranium column saturation and breakthrough of Ni²⁺ occurred after ca. 600 ml, with a total of 30 mg Ni²⁺ loaded per column, corresponding to a molar ratio of U:Ni of 2:1, in accordance with the identity of the material as Ni(UO₂PO₄)₂, identified previously. Ni²⁺ was selectively desorbed using 100 mM sodium citrate-citric acid buffer over 140 ml or a short pulse (5 ml) of 500 mM citrate buffer followed by a water wash, giving a total recovery volume of 80 ml, with a total citrate concentration of 30 mM in the wash solution of the latter. As an alternative eluant which gives no residual BOD NaCl (0.6 M) or seawater gave comparable recovery of Ni²⁺ to the 0.5 M citrate pulse, but with a Ni²⁺ recovery volume of 40–50 ml. The concentration ratio of Ni²⁺-deposition:desorption (vol:vol) was 3–4 fold better with chloride ion than with 100 mM citrate.     

Inducible nickel resistance in a river isolate of India phylogenetically ascertained as a novel strain of Acinetobacter junii

Summary A gram negative, motile, short rod-shaped, and nickel resistant (tolerating 6.5 mM Ni²⁺) bacterium, strain BB1A, was isolated from the waters of the River Torsa in Hashimara, Jalpaiguri district, West Bengal, India. The isolate BB1A was identified as a strain of Acinetobacter junii following detailed analysis of morphological, physio-biochemical and 16S rRNA gene sequence. The expression of nickel resistance in BB1A was inducible by exposure to nickel chloride at a concentration as low as 50 μM Ni²⁺. The other metal ions, Cu²⁺, Zn²⁺, or Pb²⁺ at a concentration range of 20–30 μM, also induced the nickel resistance system in this bacterium. Southern hybridizations of BB1A genomic DNA with digoxigenin-dUTP labeled DNA probes specific for well known nickel resistance determinants, cnr, ncc or nre, resulted in no detectable signal, but nir specific probe yielded weak hybridization signal with restricted genomic DNA of BB1A. The isolate BB1A, therefore, carries out a novel induction phenomenon of nickel resistance and presumably with a nickel resistance genetic system different from that previously characterized in other bacteria.     

Regulation of a voltage-dependent,calcium-activated K conductance by cyclic GMP in dissociated flounder enterocytes

Enterocytes from the winter flounder (Pseudopleuronectes americanus) were isolated by collagenase digestion and maintained in flounder Ringer's solution. Whole cell currents were studied using the amphotericin-perforated whole-cell patch clamp technique. The mean resting membrane potential and capacitance values or dissociated cells were-45±7 mV and 5±0.4 pF, respectively. Enterocytes held at-20 mV and treated with 1 mol·l^-1 ionomycin exhibited outward currents when cells were stepped through a series of voltages from-60 to +110 mV. The reversal potential of this current in flounder Ringer's solution was-55 mV and the voltage at which half-maximal activation occurred was +20 mV. Voltage-dependent inhibition of outward current was observed at +60 mV and above. When cells were bathed in symmetric K Ringer's solution the reversal potential shifted to zero mV and no inhibition of current was observed at voltages between-60 and 140 mV. When the holding potential of the cell was changed from-20 to-80 mV and stepped from-60 to +110 mV, a second [previously characterized, O'Grady et al. (1991)] K current with delayed-rectifier properties was identified. This observation demonstrated that the delayed rectifier K channel and the Ca²⁺-activated K channel described in this study exist in the same cell. Extracellular addition of 2 mmol·l^-1 Ba²⁺ to cells bathed in symmetric K Ringer's solution resulted in nearly complete inhibition of outward current. Charybdotoxin produced only minor effects on this current. Addition of 8-Br cGMP to the bathing solution also inhibited outward current and this effect could be partially reversed following washout of 8-Br cGMP from the bathing solution. The results of this study indicated that a Ca²⁺-activated K conductance in winter flounder enterocytes is potentially inhibited by agents that increase intracellular cGMP. A similar effect of cGMP on a delayed rectifier K channel in flounder enterocytes was previously demonstrated.Abbreviations ANP atrial natriuretic peptide - CTX charybdotoxin - EPPS N-2-hydroxyethylpiperazine-N-3-propanesulfonic acid     

Phytoremediation and absorption isotherms of heavy metal ions by Convolvulus tricolor (CTC)

In recent years, use of plants for remediation of contaminated soils, especially removal of heavy metals, is considered. The current study tends to investigate the removal of lead and nickel ions by the Convolvulus tricolor (CTC), was grown for 30 days in different concentrations of lead and nickel ions. Then concentration of them in soil and different organs of the plant was measured by atomic absorption spectrometry.

The highest absorbed of them occurred in concentration 0.001N, which highest Pb²⁺ accumulation is in the aerial parts of the plant: leaf > stem > root and for Ni²+: root > stem > leaf. No ion was observed into the flowers and nickel ion absorption is more of lead ion in different plant organs of CTC.

The experimental isotherm data were investigated using isotherms of Langmuir, Freundlich, BET, Temkin and Dubinin–Radushkevich (DRK). The correlation coefficient for all of them is calculated that show the best correlation coefficient for Ni²⁺ adsorption is obtained BET model, whereas for Pb²⁺ adsorption in root is Freundlich model but for its leaf and stem is BET model. The results show, CTC is suitable for Pb²⁺ and Ni²⁺ and this technique is in-situ method, simple, and low cost.     

Modulation of HERG channel inactivation by external cations

We investigated the effect of external cations on the permeability characteristics and gating kinetics of the human ether-à-go-go-related gene (HERG) current using the whole-cell patch-clamp technique. Inward HERG currents were recorded on hyperpolarization in 140 mM external Cs⁺ and Rb⁺, as well as K⁺. The permeability ratios of Rb⁺ and Cs⁺ relative to K⁺ were 1.25 and 0.56, respectively. Biphasic outward currents were recorded on depolarization in 140 mM Cs⁺ and in Rb⁺ with much smaller amplitude. The voltage dependence of inactivation was affected by external cations, such that the half-inactivation voltage shifted from –69.4±3.7 mV in K⁺ to –30.7±1.6 mV in Cs⁺ and to –35.8±1.9 mV in Rb⁺ (n=5). The time constants of inactivation were also changed significantly by external cations; of inactivation at +40 mV was 16.4±2.2 ms in 140 mM K⁺, 181±20.3 ms in Cs⁺, and 94.1±7.6 ms in Rb⁺ (n=5). Voltage dependence of activation was not altered significantly. The inhibition of the rapid inactivation mechanism by large cations may suggest that the foot-in-the-door model of gating is involved in HERG channel inactivation.     

Biosorption and solubilization of copper oxychloride fungicide by Aspergillus niger and the influence of calcium

The biosorption of copper oxychloride fungicide particulates(1 m diameter), at concentrations ranging from 25 to 500 ppm active ingredient (ai), by pelleted mycelium of Aspergillus niger grown on Czapek Dox medium was evaluated. The concentration of the fungicide adsorbed to the mycelium, remaining suspended or solubilized in the medium, was determined by analysis of its copper content (CuF)using atomic absorption spectrophotometry (AAS). 2-day-old pellets exhibited highbiosorption efficiency ranging from 97 ± 1.0 to 88 ± 1.2% of the initially added fungicide concentrations, respectively, within 10 min. However, underthe same conditions, amounts of the removed fungicide by 6-day-old mycelial pellets were significantly lower and ranged from 0.5 ± 0.03 to 0.15 ± 0.01%. Scanning electron microscopy studies of 2-day-old pellets supplemented with thefungicide revealed predominant aggregations of clumps and dense particulates on the hyphal tips. The adsorbed CuF of 125 ppm ai fungicide subsequently decreased from 7.5 ± 0.5 to 2.1 ± 0.1 mol Cu (mg dry wt)^-1 after 12 h incubation. Simultaneously, the soluble portion of CuF remaining in the medium increased from 0.9 ± 0.6 to4.9 ± 0.2 mol Cu ml^-1. The presence of 50 mM CaCl₂ resulted in a decrease of the adsorbed CuF to 3.5 ± 0.5 mol Cu (mg dry wt)^-1 and solubilizedcopper in the medium increased to 5.9 ± 0.8 mol Cu ml^-1. Additionally, the cellular copper contents attained after 2 h were 0.08 ± 0.01 and 0.16 ± 0.007 mol Cu (mg dry wt)^-1 in absence and presence of calcium, respectively. The addition of calcium to glucose-starved pellets greatly increased the medium [H⁺] which was conclusively discussed in relation to Ca²⁺/H⁺ exchangecapacity of the fungal cells. These results are of potential environmental,biotechnological and agricultural importance.     

Secretion of electrolytes,protein and urea by the mandibular gland of the common wombat (Vombatus ursinus)

Saliva was collected from the mandibular glands of anaesthetized common wombats (Vombatus ursinus) to ascertain maximal flow rates, salivary compostion and possible adaptations, particularly PO₄ ^3- secretion, to assist digestion. After temporary catheterization of the main duct through its oral opening, salivary secretion was evoked at flow rates ranging from 0.02±0.002 (±SEM) ml·min^-1 (0.7±0.07 l·min^-1·kg body weight^-1) to 0.4±0.05 ml·min^-1(14±1.9 l·min^-1·kg body weight^-1) by ipsilateral intracarotid infusion of acetylcholine. The [Na⁺] (15±5.1 to 58±8.6 mmol·l^-1) and [HCO₃ ^-] (35±1.9 to 60±1.9 mmol·l^-1) were positively correlated with salivary flow rate. The [K⁺] (58±5.2 to 30±2.4 mmol·l^-1), [Ca²⁺] (10.4±1.67 to 4.1±0.44 mmol·l^-1), [Mg²⁺] (0.94±0.137 to 0.17±0.032 mmol·l^-1), [Cl^-] (71±9.2 to 45±6.0 mmol·l^-1), [urea] (9.3±0.79 to 5.1±0.54 mmol·l^-1), H⁺ activity (29±1.6 to 17±1.6 nEq·l^-1) and amylase activity (251±57.4 to 92±23.3 kat·l^-1) were negatively correlated with flow. Both concentration and osmolality fell with increasing flow at the lower end of the flow range but osmolality always increased again by maximal flow whereas the relation between protein and flow was not consistent at the higher levels of flow and stimulation. Salivary [PO₄ ³⁺] was not correlated with flow and at 3–14% of the plasma concentration was extremely low. Thus, in contrast to its nearest relative, the koala (Phascolarctos cinereus), the wombat secretes little PO₄ ³⁺ presumably because it does not need high levels of PO₄ ³⁺ in its saliva to facilitate microbial digestion of plant fibre.Abbreviations bw body weight - ww wet weight